High Speed, Low Power Dual Op Amp AD827
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- Clyde Anthony
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1 a FEATURES HIGH SPEED 50 MHz Unity Gain Stable Operation 300 V/ s Slew Rate 120 ns Settling Time Drives Unlimited Capacitive Loads EXCELLENT VIDEO PERFORMANCE 0.04% Differential 4.4 MHz 0.19 Differential 4.4 MHz GOOD DC PERFORMANCE 2 mv max Input Offset Voltage 15 V/ C Input Offset Voltage Drift Available in Tape and Reel in Accordance with EIA-481A Standard LOW POWER Only 10 ma Total Supply Current for Both Amplifiers 5 V to 15 V Supplies PRODUCT DESCRIPTION The is a dual version of Analog Devices industrystandard AD847 op amp. Like the AD847, it provides high speed, low power performance at low cost. The achieves a 300 V/µs slew rate and 50 MHz unity-gain bandwidth while consuming only 100 mw when operating from ±5 volt power supplies. Performance is specified for operation using ±5 V to ±15 V power supplies. The offers an open-loop gain of 3,500 V/V into 500 Ω loads. It also features a low input voltage noise of 15 nv/ Hz, and a low input offset voltage of 2 mv maximum. Commonmode rejection ratio is a minimum of 80 db. Power supply rejection ratio is maintained at better than 20 db with input frequencies as high as 1 MHz, thus minimizing noise feedthrough from switching power supplies. The is also ideal for use in demanding video applications, driving coaxial cables with less than 0.04% differential gain and 0.19 differential phase errors for 643 mv p-p into a 75 Ω reverse terminated cable. The is also useful in multichannel, high speed data conversion systems where its fast (120 ns to 0.1%) settling time is of importance. In such applications, the serves as an input buffer for 8-bit to 10-bit A/D converters and as an output amplifier for high speed D/A converters. 8-Pin Plastic (N) and Cerdip (Q) Packages High Speed, Low Power Dual Op Amp CONNECTION DIAGRAMS 20-Pin LCC (E) Package 16-Pin Small Outline (R) Package APPLICATION HIGHLIGHTS 1. Performance is fully specified for operation using ±5 V to ±15 V supplies. 2. A 0.04% differential gain and 0.19 differential phase error at the 4.4 MHz color subcarrier frequency, together with its low cost, make it ideal for many video applications. 3. The can drive unlimited capacitive loads, while its 30 ma output current allows 50 Ω and 75 Ω reverseterminated loads to be driven. 4. The s 50 MHz unity-gain bandwidth makes it an ideal candidate for multistage active filters. 5. The is available in 8-pin plastic mini-dip and cerdip, 20-pin LCC, and 16-pin SOIC packages. Chips and MIL- STD-883B processing are also available. Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. One Technology Way, P.O. Box 9106, Norwood, MA , U.S.A. Tel: 617/ Fax: 617/
2 SPECIFICATIONS T A = +25 C, unless otherwise noted) J A/S Model Conditions V S Min Typ Max Min Typ Max Units DC PERFORMANCE Input Offset Voltage 1 ±5 V mv T MIN to T MAX mv ±15 V 4 4 mv T MIN to T MAX 6 6 mv Offset Voltage Drift ±5 V to ±15 V µv/ C Input Bias Current ±5 V to ±15 V µa T MIN to T MAX µa Input Offset Current ±5 V to ±15 V na T MIN to T MAX na Offset Current Drift ±5 V to ±15 V na/ C Common-Mode Rejection Ratio V CM = ±2.5 V ±5 V db V CM = ±12 V ±15 V db T MIN to T MAX ±5 V to ±15 V db Power Supply Rejection Ratio ±5 V to ±15 V db T MIN to T MAX db Open-Loop Gain V O = ±2.5 V ±5 V R LOAD = 500 Ω V/mV T MIN to T MAX 1 1 V/mV R LOAD = 150 Ω V/mV V OUT = ±10 V ±15 V R LOAD = 1 kω V/mV T MIN to T MAX V/mV MATCHING CHARACTERISTICS Input Offset Voltage ±5 V mv Crosstalk f = 5 MHz ±5 V db DYNAMIC PERFORMANCE Unity-Gain Bandwidth ±5 V MHz ±15 V MHz Full Power Bandwidth 2 V O = 5 V p-p, R LOAD = 500 Ω ±5 V MHz V O = 20 V p-p, R LOAD = 1 kω ±15 V MHz Slew Rate 3 R LOAD = 500 Ω ±5 V V/µs R LOAD = 1 kω ±15 V V/µs Settling Time to 0.1% A V = V to +2.5 V ±5 V ns 5 V to +5 V ±15 V ns Phase Margin C LOAD = 10 pf ±15 V R LOAD = 1 kω Degrees Differential Gain Error f = 4.4 MHz ±15 V % Differential Phase Error f = 4.4 MHz ±15 V Degrees Input Voltage Noise f = 10 khz ±15 V nv/ Hz Input Current Noise f = 10 khz ±15 V pa/ Hz Input Common-Mode Voltage Range ±5 V V V ±15 V V V Output Voltage Swing R LOAD = 500 Ω ±5 V ±V R LOAD = 150 Ω ±5 V ±V R LOAD = 1 kω ±15 V ±V R LOAD = 500 Ω ±15 V ±V Short-Circuit Current Limit ±5 V to ±15 V ma INPUT CHARACTERISTICS Input Resistance kω Input Capacitance pf 2
3 J A/S Model Conditions V S Min Typ Max Min Typ Max Units OUTPUT RESISTANCE Open Loop Ω POWER SUPPLY Operating Range ±4.5 ±18 ±4.5 ±18 V Quiescent Current ±5 V ma T MIN to T MAX /17.5 ma ±15 V ma T MIN to T MAX /18 ma TRANSISTOR COUNT NOTES 1 Offset voltage for the is guaranteed after power is applied and the device is fully warmed up. All other specifications are measured using high speed test equipment, approximately 1 second after power is applied. 2 Full Power Bandwidth = Slew Rate/2 π V PEAK. 3 Gain = +1, rising edge. All min and max specifications are guaranteed. Specifications subject to change without notice. ABSOLUTE MAXIMUM RATINGS 1 Supply Voltage ±18 V Internal Power Dissipation 2 Plastic (N) Package (Derate at 10 mw/ C) W Cerdip (Q) Package (Derate at 8.7 mw/ C) W Small Outline (R) Package (Derate at 10 mw/ C) W LCC (E) Package (Derate at 6.7 mw/ C) W Input Common Mode Voltage ±V S Differential Input Voltage V Output Short Circuit Duration Indefinite Storage Range (N, R) C to +125 C Storage Range (Q) C to +150 C Operating Range J C to +70 C A C to +85 C S C to +125 C Lead Range (Soldering to 60 sec) C NOTES 1 Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only, and functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum ratings for extended periods may affect device reliability. 2 Maximum internal power dissipation is specified so that T J does not exceed +175 C at an ambient temperature of +25 C. Thermal Characteristics: Mini-DIP: θ JA = 100 C/Watt; θ JC = 33 C/ Watt Cerdip: θ JA = 110 C/Watt; θ JC = 30 C/Watt 16-Pin Small Outline Package: θ JA = 100 C/Watt 20-Pin LCC: θ JA = 150 C/Watt; θ JC = 35 C/Watt 3 Indefinite short circuit duration is only permissible as long as the absolute maximum power rating is not exceeded. ORDERING GUIDE Package Package Model Range Description Option JN 0 C to +70 C 8-Pin Plastic DIP N-8 JR 0 C to +70 C 16-Pin Plastic SO R-16 AQ 40 C to +85 C 8-Pin Cerdip Q-8 SQ 55 C to +125 C 8-Pin Cerdip Q-8 SQ/883B 55 C to +125 C 8-Pin Cerdip Q MPA 55 C to +125 C 8-Pin Cerdip Q-8 SE/883B 55 C to +125 C 20-Pin LCC E-20A M2A 55 C to +125 C 20-Pin LCC E-20A JR-REEL 0 C to +70 C Tape & Reel JChips 0 C to +70 C Die SChips 55 C to +125 C Die METALIZATION PHOTOGRAPH Contact factory for latest dimensions. Dimensions shown in inches and (mm). Substrate is connected to V+. 3
4 Typical Characteristics +25 C & 15 V, unless otherwise noted) INPUT COMMON-MODE RANGE Volts V IN V IN OUTPUT VOLTAGE SWING Volts V OUT V OUT R LOAD = 1kΩ SUPPLY VOLTAGE ± Volts Figure 1. Input Common-Mode Range vs. Supply Voltage SUPPLY VOLTAGE ± Volts Figure 2. Output Voltage Swing vs. Supply Voltage Figure 3. Output Voltage Swing vs. Load Resistance Figure 4. Quiescent Current vs. Supply Voltage Figure 5. Input Bias Current vs. Figure 6. Closed-Loop Output Impedance vs. Frequency, Gain = QUIESCENT CURRENT ma V S = ±15V V S = ±5V TEMPERATURE C Figure 7. Quiescent Current vs. Figure 8. Short-Circuit Current Limit vs. Figure 9. Gain Bandwidth vs. 4
5 Figure 10. Open-Loop Gain and Phase Margin vs. Frequency Figure 11. Open-Loop Gain vs. Load Resistance Figure 12. Power Supply Rejection Ratio vs. Frequency Figure 13. Common-Mode Rejection Ratio vs. Frequency Figure 14. Large Signal Frequency Response Figure 15. Output Swing and Error vs. Settling Time 400 RISE 350 A V = +1 SLEW RATE Volts/µs SLEW RATE 10 90% V S = ±15V V S = ±5V FALL RISE FALL Figure 16. Harmonic Distortion vs. Frequency Figure 17. Input Voltage Noise Spectral Density TEMPERATURE C Figure 18. Slew Rate vs. 5
6 Figure 19. Crosstalk vs. Frequency Figure 20. Crosstalk Test Circuit INPUT PROTECTION PRECAUTIONS An input resistor (resistor R IN of Figure 21a) is recommended in circuits where the input common-mode voltage to the may exceed (on a transient basis) the positive supply voltage. This resistor provides protection for the input transistors by limiting the maximum current that can be forced into their bases. For high performance circuits, it is recommended that a second resistor (R B in Figures 21a and 22a) be used to reduce biascurrent errors by matching the impedance at each input. This resistor reduces the error caused by offset voltages by more than an order of magnitude. Figure 21a. Follower Connection Figure 21b. Follower Large Signal Pulse Response Figure 21c. Follower Small Signal Pulse Response Figure 22a. Inverter Connection Figure 22b. Inverter Large Signal Pulse Response Figure 22c. Inverter Small Signal Pulse Response 6
7 VIDEO LINE DRIVER The functions very well as a low cost, high speed line driver for either terminated or unterminated cables. Figure 23 shows the driving a doubly terminated cable in a follower configuration. A HIGH SPEED 3 OP AMP INSTRUMENTATION AMPLIFIER CIRCUIT The instrumentation amplifier circuit shown in Figure 24 can provide a range of gains. The chart of Table II details performance. +V S TRIM FOR BEST SETTLING TIME 2 8pF V IN / V S 1kΩ +V IN R G TRIM FOR OPTIMUM BANDWIDTH 7 15 pf 1kΩ 6 1/ pF AD V S 2000 CIRCUIT GAIN = + 1 R G R L V OUT Figure 23. A Video Line Driver The termination resistor, R T, (when equal to the cable s characteristic impedance) minimizes reflections from the far end of the cable. While operating from ±5 V supplies, the maintains a typical slew rate of 200 V/µs, which means it can drive a ±1 V, 30 MHz signal into a terminated cable. Table I. Video Line Driver Performance Summary Over- V IN * V SUPPLY C C 3 db B W shoot 0 db or ±500 mv Step ±15 20 pf 23 MHz 4% 0 db or ±500 mv Step ±15 15 pf 21 MHz 0% 0 db or ±500 mv Step ±15 0 pf 13 MHz 0% 0 db or ±500 mv Step ±5 20 pf 18 MHz 2% 0 db or ±500 mv Step ±5 15 pf 16 MHz 0% 0 db or ±500 mv Step ±5 0 pf 11 MHz 0% NOTE * 3 db bandwidth numbers are for the 0 dbm signal input. Overshoot numbers are the percent overshoot of the 1 Volt step input. A back-termination resistor (R BT, also equal to the characteristic impedance of the cable) may be placed between the output and the cable input, in order to damp any reflected signals caused by a mismatch between R T and the cable s characteristic impedance. This will result in a flatter frequency response, although this requires that the op amp supply ±2 V to the output in order to achieve a ±1 V swing at resistor R T. V S NOTE: PINOUT SHOWN IS FOR MINIDIP PACKAGE Figure 24. A High Bandwidth Three Op Amp Instrumentation Amplifier Table II. Performance Specifications for the Three Op Amp Instrumentation Amplifier Small Signal Bandwidth Gain R 1 V p-p Output 1 Open 16.1 MHz 2 2 k 14.7 MHz Ω 4.9 MHz Ω 660 khz A TWO-CHIP VOLTAGE-CONTROLLED AMPLIFIER (VCA) WITH EXPONENTIAL RESPONSE Voltage-controlled amplifiers are often used as building blocks in automatic gain control systems. Figure 25 shows a two-chip VCA built using the and the AD539, a dual, currentoutput multiplier. As configured, the circuit has its two INPUT RANGE: 10MV TO 3V (55dB) AD539 V X 1 CONTROL 16 W1 V IN 2 HF COMP 15 Z1 0.01µF 3 CH 1 CH V +V S BASE 5V 4.7Ω 5 V COM 12 S 4.7Ω IN 4 OUT 13 6 CH2 CH2 11 IN OUT 7 INPUT 10 COM Z2 8 OUTPUT 9 W2 COM *PINOUT SHOWN IS FOR MINI-DIP PACKAGE V 2 X V IN V OUT AT TERMINATION RESISTOR, R T = 8V 2 V AT PIN & OF = OUT V 2 X V IN 4V 2 2pF C 3 +5V 2 8 1/ * 5 + 1/2 * 7 6 2pF 4 C 4 5V COAX LINE 50Ω R T OUTPUT 50Ω Figure 25. A Wide Range Voltage-Controlled Amplifier Circuit
8 multipliers connected in series. They could also be placed in parallel with an increase in bandwidth and a reduction in gain. The gain of the circuit is controlled by V X, which can range from 0 to 3 V dc. Measurements show that this circuit easily supplies 2 V p-p into a 100 Ω load while operating from ±5 V supplies. The overall bandwidth of the circuit is approximately 7 MHz with 0.5 db of peaking. Each half of the serves as an I/V converter and converts the output current of one of the two multipliers in the AD539 into an output voltage. Each of the AD539 s two multipliers contains two internal 6 kω feedback resistors; one is connected between the CH1 output and Z1, the other between the CH1 output and W1. Likewise, in the CH2 multiplier, one of the feedback resistors is connected between CH2 and Z2 and the other is connected between CH2 and Z2. In Figure 25, Z1 and W1 are tied together, as are Z2 and W2, providing a 3 kω feedback resistor for the op amp. The 2 pf capacitors connected between the AD539 s W1 and CH1 and W2 and CH2 pins are in parallel with the feedback resistors and thus reduce peaking in the VCA s frequency response. Increasing the values of C3 and C4 can further reduce the peaking at the expense of reduced bandwidth. The 1.25 ma full-scale output current of the AD539 and the 3 kω feedback resistor set the full-scale output voltage of each multiplier at 3.25 V p-p. Current limiting in the (typically 30 ma) limits the output voltage in this application to about 3 V p-p across a 100 Ω load. Driving a 50 Ω reverse-terminated load divides this value by two, limiting the maximum signal delivered to a 50 Ω load to about 1.5 V p-p, which suffices for video signal levels. The dynamic range of this circuit is approximately 55 db and is primarily limited by feedthrough at low input levels and by the maximum output voltage at high levels. Guidelines for Grounding and Bypassing When designing practical high frequency circuits using the, some special precautions are in order. Both short interconnection leads and a large ground plane are needed whenever possible to provide low resistance, low inductance circuit paths. One should remember to minimize the effects of capacitive coupling between circuits. Furthermore, IC sockets should be avoided. Feedback resistors should be of a low enough value that the time constant formed with stray circuit capacitances at the amplifier summing junction will not limit circuit performance. As a rule of thumb, use feedback resistor values that are less than 5 kω. If a larger resistor value is necessary, a small (<10 pf) feedback capacitor in parallel with the feedback resistor may be used. The use of 0.1 µf ceramic disc capacitors is recommended for bypassing the op amp s power supply leads. C /90 OUTLINE DIMENSIONS Dimensions shown in inches and (mm). 8-Pin Mini-DIP (N) Package 8-Pin Cerdip (Q) Package 16-Pin SOIC (R) Package 20-Terminal Leadless Ceramic Chip Carrier (E-20A) PRINTED IN U.S.A. 8
9 Analog Products -- Package/Price Information For detailed packaging information, please select the Datasheets button. High Speed, Low Power Dual Op Amp Model Status Package Description Pin Count Range Price* ( ) M2A PRODUCTION CER. LEADLESS CHIP CARRIER 8 MILITARY $ MPA PRODUCTION CERDIP GLASS SEAL 8 MILITARY $35.05 AQ PRODUCTION CERDIP GLASS SEAL 8 INDUSTRIAL $8.41 JCHIPS PRODUCTION CHIPS/DIE SALES - COMMERCIAL $4.25 JN PRODUCTION PLASTIC/EPOXY DIP 8 COMMERCIAL $5.85 JR-16 PRODUCTION STD S.O. PKG (SOIC) 16 COMMERCIAL $5.85 JR-16-REEL PRODUCTION STD S.O. PKG (SOIC) 16 COMMERCIAL - JR-16-REEL7 PRODUCTION STD S.O. PKG (SOIC) 16 COMMERCIAL - SCHIPS PRODUCTION CHIPS/DIE SALES - MILITARY $19.35 SE/883B PRODUCTION CER. LEADLESS CHIP CARRIER 20 MILITARY $79.61 SQ PRODUCTION CERDIP GLASS SEAL 8 MILITARY $23.36 SQ/883B PRODUCTION CERDIP GLASS SEAL 14 MILITARY $35.05 * This price is provided for budgetary purposes as recommended list price in U.S. Dollars per unit the stated volume. Pricing displayed for Evaluation Boards and Kits is based on 1-piece pricing. View Pricing and Availability (currently available to North American customers) for further information. file:///f /cpl_new_images/.html [7/17/2001 4:49:18 PM]
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